JP2002369739A - Warp knitted blanket with excellent thermal insulation capacity - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a warp knitted blanket with excellent thermal insulation capacity. SOLUTION: The warp knitted blanket has a front loop pile 2 formed on the surface of a ground texture 1 and a back loop pile 3 is formed on the rear thereof. The ground texture 1 is formed out of chain stitch yarns 4, which are arranged and bound together by insertion yarns 5. The front loop pile 2 is formed out of front knit yarns 6, which are so arranged as to bind between adjacent stitched parts 6a and 6a, stitched to chain stitch yarns 4a, with yarn portions thereof. The back loop pile 3 is formed out of back knit yarns 7, which are so arranged as to bind between adjacent insertion parts 7a and 7a, inserted into chain stitch yarns 4b, with yarn portions thereof. The front loop pile 2 and the back loop pile 3 respectively use wool yarns. The warp knitted blanket preferably meet the equation of [(proper clo value/unit thickness)×(proper clo value/unit weight)]>=8.0×10<-4> .

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blanket knitted by warp knitting, and more particularly to a warp knitted blanket excellent in heat retention.

[0002]

2. Description of the Related Art Conventionally, the followings are known as blankets used as bedding. (I) a cotton blanket made by raising a plain woven fabric made of cotton yarn, (ii) a blanket made by raising a plain woven fabric made of wool yarn, and (iii) shirring on one side. A so-called Meyer blanket obtained by laminating two pieces of Russell knitted fabric provided with cut piles so that the Russell knitted fabrics come into contact with each other. A so-called New Meyer blanket formed by shearing a pile is known. However, as is clear from the examples described below, these blankets have all been required to be further improved in terms of heat retention.

[0003]

The inventors of the present invention have been conducting various studies in order to develop a blanket having an excellent heat retaining ability. Blankets formed on both sides, compared to conventional blankets,
It was found to be excellent in terms of heat retention. The present invention is based on such findings.

[0004]

That is, the present invention provides a warp knitted fabric comprising a chain knitting yarn and an insertion yarn connecting the chain knitting yarn, a front knitting yarn comprising a wool yarn, and a back knitting comprising a wool yarn. The front knitting yarn has a knitting portion knitted to the chain knitting yarn, and a yarn portion connecting between adjacent knitting portions serves as a front loop pile, The back knitting yarn has an insertion portion inserted into the chain knitting yarn, and a yarn portion connecting the adjacent insertion portions is a back loop pile, which relates to a warp knitting blanket excellent in heat retention. Things.

[0005] The warp knitted blanket according to the present invention comprises a warp knitted fabric structure 1 composed of a chain knitting yarn and an insertion yarn connecting the chain knitting yarn, and a ground structure 1.
And a back loop pile 3 formed on the back side of the ground structure 1. The warp knitted blanket according to the present invention is excellent in air holding properties as compared with cut piles because the piles 2 and 3 formed on both sides of the ground structure 1 are both loops. For this reason, the warp knitted blanket according to the present invention,
It has excellent heat retention. In addition, the density of the front loop pile 2 and the back loop pile 3 is preferably about 5 to 15 / cm, more preferably about 10 to 13 / cm. The density of the front loop pile 2 and the density of the pack loop pile 3 may be the same or different. For example, the former density may be twice or more than the latter density.

[0006] The warp knitted fabric structure 1 is composed of a chain knitting yarn and an insertion yarn connecting the chain knitting yarn. The ground structure 1 is for stabilizing the form of the warp knitted blanket. Therefore, as the material of the chain knitting yarn and the insertion yarn, any conventionally known yarn can be used as long as the yarn has good dimensional stability. Specifically, a polyester multifilament is preferable in terms of strength and heat resistance. In addition, wool yarn may be used similarly to the material of the loop pile. FIG.
Shows a warp knitting structure in which three chain knitting yarns are connected by the insertion yarn 5. In FIG. 2, only the structure connecting the chain knitting yarns 4b, 4c and 4d with the insertion yarn 5 is shown, but other insertion yarns are omitted. That is, the other insertion yarns 5 are each connecting three chain knitting yarns such as the chain knitting yarns 4a, 4b, and 4c.

[0007] The front loop pile 2 is formed of a part of a front knitting yarn made of wool yarn. That is, the front knitting yarn has a knitted portion knitted on the chain knitting yarn, and the yarn portion connecting the adjacent knitted portions forms the front loop pile 2. The knitting portion is provided at an arbitrary position of the chain knitting yarn. Further, the adjacent knitting portions are preferably provided on one chain knitting yarn.
In FIG. 2, the knitting portions 6a are provided on the chain knitting yarns 4a, 4b, 4c, and 4d, and the knitting portions 6a are provided on all the chain knitting yarns of the ground structure 1. In addition, in FIG.
The knitting part 6a provided in c and 4d is omitted. The knitted portion 6a knitted on the chain knitting yarn 4a will be described below. After the knitting portion 6a is provided on the chain knitting yarn 4a, the stitch 6b is formed at the position where the chain knitting yarn 4b is skipped, and then the knitting portion 6a is provided again by returning to the chain knitting yarn 4a. Since the stitch 6b is formed independently and is not entangled with the yarn, the stitch 6b is finally unwound and the front loop pile 2 is formed.
That is, in one chain knitting yarn 4a, the adjacent knitting portions 6
The yarn portion of the front knitting yarn 6 connecting the a and 6a becomes the front loop pile 2.

FIG. 2 shows an example in which a stitch 6b is formed at a position where the chain knitting yarn 4b is skipped after the knitting portion 6a is provided on the chain knitting yarn 4a. 4b and 4c may be formed at the skipped position, or the chain knitting yarn 4b may be formed.
May be formed without skipping. In the former case, the length of the front loop pile 2 becomes longer, and in the latter case,
The length of the front loop pile 2 is reduced. FIG.
In the above, the stitch 6b is a closed stitch, but may be an open stitch. Front knitting yarn 6 forming front loop pile 2
Is made of wool yarn, which can realize a sufficient heat retaining power. In addition, when formed of non-shrink wool yarn, shrinkage after washing can be prevented, which is preferable.

The back loop pile 3 is formed of a part of a back knitting yarn made of wool yarn. That is, the back knitting yarn has an insertion portion inserted into the chain knitting yarn, and the yarn portion connecting the adjacent insertion portions forms the back loop pile 3. The insertion portion is provided at an arbitrary position of the chain knitting yarn. Further, the adjacent insertion portions are preferably provided on one chain knitting yarn. In FIG. 2, the insertion portion 7a
Are provided on the chain knitting yarns 4a, 4b, 4c and 4d, and the insertion portions 7a are provided on all the chain knitting yarns of the ground structure 1. In FIG. 2, the insertion portion 7a provided in the chain knitting yarns 4a, 4c, and 4d is omitted. The insertion portion 7a provided on the chain knitting yarn 4b will be described below. After the insertion portion 7a is provided on the chain knitting yarn 4b, the stitch 7b is formed at the position of the stitch 6b formed by the front knitting yarn 6, and then inserted again into the chain knitting yarn 4b to provide the insertion portion 7a. . The stitch 7b is formed independently,
Since the yarn is not entangled with the yarn, the yarn is finally unwound and the packed loop pile 3 is formed. That is, in one chain knitting yarn 4b, adjacent insertion portions 7a,
The yarn portion of the back knitting yarn 7 connecting the portions 7a becomes the back loop pile 3. Note that the back knitting yarn 7 is
However, since the back loop pile 3 is not formed in this portion, the present invention does not refer to the insertion portion for forming the back loop pile 3.

In FIG. 2, the insertion portions 7a, 7a are inserted into the chain knitting yarn 4b.
Is inserted into the chain knitting yarn 4a, but is not inserted into the chain knitting yarn 4a.
It may just be inserted in b. In this case, the length by which the back knitting yarn 7 is knitted into the ground structure 1 is shortened, and the obtained warp knitted blanket is reduced in weight. Also, in FIG.
b is formed between the chain knitting yarns 4b and 4c.
It may be formed between the chain knitting yarns 4c and 4d. In this case, the length of the back loop pile 3 becomes longer. In FIG. 2, the stitch 7b is an open stitch, but may be a closed stitch. Back knitting yarn 7 forming back loop pile 3
Is made of wool yarn, which can realize a sufficient heat retaining power. In addition, when formed of non-shrink wool yarn, shrinkage after washing can be prevented, which is preferable.

In the warp knitting blanket according to the present invention, the front knitting yarn is knitted to the chain knitting yarn and the back knitting yarn is inserted into the chain knitting yarn while knitting the warp knitting structure with the chain knitting yarn and the insertion yarn. Can be knitted while. Then, the knitting is performed while forming a stitch that does not become entangled with other yarns with the front knitting yarn. Finally, the stitch is automatically unwound to form the front loop pile 2. On the other hand, knitting is performed while forming a stitch that does not become entangled with the other yarn with the back knitting yarn, and finally, the stitch is automatically unwound to form the back loop pile 3. Such knitting can be suitably performed by using a KS4FBZ machine manufactured by KARL MAYER.

[0012] The warp knitted blanket according to the present invention is knitted as described above, and then subjected to a raising process by a known means. In the warp knitted blanket according to the present invention, the front loop pile 2 or the back loop pile 3 may not be formed around the blanket or a part of the blanket. That is, in the periphery or a part of the blanket, the ground structure remains, or the front knitting yarn 6 and the back knitting yarn 7
May be knitted without forming a loop pile.

The warp-knitted blanket according to the present invention has an excellent heat-retaining power, and is expressed by the following intrinsic Clo value which is an index indicating the heat-retaining power. That is, [(specific clo value /
Unit thickness) × (specific clo value / unit weight)] ≧ 8.0 ×
It generally has a value of 10 ^-4 , and is superior in the heat retaining power as compared with various conventional blankets. In particular, (specific cl
(o value / unit thickness) is preferably 0.80clo / cm or more, and (intrinsic clo value / unit weight) is 12.0 ×
It is preferably at least 10 ⁻⁴ clo / g / m ² . That is, since the intrinsic clo value per unit thickness or the intrinsic clo value per unit area weight is relatively high, even if it is thin and lightweight, it can exhibit sufficient heat retaining power. In addition, the measuring method of (intrinsic clo value / unit thickness) and (intrinsic clo value / unit weight) is as described later.

[0014]

Hereinafter, the present invention will be described based on examples, but the present invention is not limited to the examples. The present invention should be construed as being based on the finding that providing a loop pile, rather than a cut pile, in a specific manner, on both sides of a specific ground structure, results in a blanket excellent in heat retention. is there.

Example 1 A knitted fabric having a knitting structure shown in FIG. 2 was obtained using a KS4FBZ machine manufactured by KARL MAYER under the following conditions. Gauge: 28 yarns / inch Knitting width: 66 "Yarn constituting chain knitting yarn and insertion yarn: 100 denier polyester multifilament Yarn constituting front knitting yarn and back knitting yarn: Double yarn of 48th anti-shrink wool yarn Front loop Pile and back loop pile densities:
Then, the obtained knitted fabric was subjected to a raising process to obtain a warp knitted blanket.

Comparative Example 1 A commercially available Meyer blanket. This Meyer blanket consists of two Russell knitted fabrics with a cut pile on the surface,
It is made by attaching the Russell knitted fabric so that it abuts. Therefore, it is a blanket in which cut piles are provided on both sides of two laminated Russell knitted fabrics. In addition, the cut pile is formed of a double yarn of 32nd acrylic yarn, which is split by shearing.

Comparative Example 2 A commercially available New Meyer blanket. This New Meyer blanket is a blanket in which cut piles are provided on both sides of one Russell knitted fabric. The cut pile is 32
It is formed by a twin yarn of a count acrylic yarn, which is split by shearing.

Comparative Example 3 A commercially available cotton blanket. This cotton blanket is obtained by weaving in a plain weave structure using a twin yarn of 20th cotton yarn and then performing a well-known raised process.

Comparative Example 4 A plain woven blanket formed of a commercially available wool yarn. This blanket is obtained by weaving in a plain weave structure using a twin yarn of 34th wool yarn and then performing a well-known raised process.

The warp knitted blanket according to Example 1 and Comparative Examples 1-4
The following test was performed about the blanket which concerns on. The results were as shown in Table 1. [Density] Performed according to the method described in JIS L 1096. The unit is g / m ² . [Thickness] The measurement was performed according to the method described in JIS L 1096. The unit is mm. [Bulk density] Calculated based on the above basis weight and thickness. The unit is g / cm ³ . [Air permeability] The measurement was performed according to the method described in JIS L 1096. The unit is cm ³ / cm ² · sec.

[Intrinsic clo value / unit thickness] The intrinsic clo value was measured in the following order. (1) A sample piece of 10 cm × 10 cm is prepared. (2) Turn on the thermolab tester 30 minutes before the measurement. (3) B. T. TEMP and GARD TEPT ZE
Press the RO button and confirm that the display is ZERO. If not, adjust with a flathead screwdriver. (4) Install wind tunnel, BT heater and GRD
Turn HEATER ON and adjust the wind speed to 30 cm / sec. (5) The temperature of the hot plate (the area of the hot plate is adjusted to 10 cm × 10 cm) is adjusted to 30 ° C. (ambient temperature + 10 ° C.). Then, by the following equation, the heat consumption of Blank ( _Upd )
Is calculated. The unit of the consumed heat amount of the blank is (w
/ M ² · ° C). Blank Heat consumption = [Measured value (w)] / [Hot plate area (m ² ) × Temperature difference (10 ° C.)] (6) Then, place the sample piece on the hot plate, Read the calorific value (w). Then, the heat consumption (U ₁ ) of the sample piece is calculated by the following equation. The unit of the heat consumption of the sample piece is (w / m ² · ° C.). Sample piece heat consumption = [measured value (w)] / [hot plate area (m ² ) × temperature difference (10 ° C.)] (7) The intrinsic clo value is calculated from the following equation. The thickness of the intrinsic clo value _{= 6.461 / U 2 U 2 =} (U pd × U 1) / (U pd -U 1) (8) the unique clo value calculated in (7), each sample piece To obtain the value of (inherent clo value / unit thickness). The thickness of each specimen is the thickness under a load of 7 g / cm ² , and the unit is cm. Therefore, (property c
The unit of (lo value / unit thickness) is clo / cm. [Specific clo value / unit weight] The specific clo value is determined by the procedure of (1) to (7), and the specific clo value is divided by the weight of each sample piece to obtain (specific clo value / unit weight). Find the value. The unit of (specific clo value / unit weight) is c
lo / g / m ² .

[0022]

【table 1 】 In Table 1, the unit of basis weight is g / m ² and the unit of thickness is m
m, the unit of bulk density is g / cm ³ , and the unit of air permeability is cm ³ / cm ² · sec. * 1 is
(Specific clo value / unit thickness), and the unit is clo / c
m. * 2 is (specific clo value / unit weight), and the unit is clo / g / m ² .

As is clear from the results in Table 1, Example 1
The warp knitted blanket according to the present invention has higher values of (specific clo value / unit thickness) and (specific clo value / unit weight) as compared with the Meyer blanket, New Meyer blanket, cotton blanket and plain woven blanket, It turns out that it is excellent in point.

[0024]

In the warp knitted blanket according to the present invention, a loop pile is formed on both sides of a specific ground structure in a specific manner. The loop pile is fluffed by the raising process, but its loop shape is maintained. Therefore, it is considered that air is more easily retained in the loop than in a cut pile having no loop shape.

[0025]

Accordingly, the warp knitted blanket according to the present invention has an effect of being superior in the heat retaining power per unit mass or unit thickness as compared with the conventional blanket.

[Brief description of the drawings]

FIG. 1 is a schematic side view of a warp knitted blanket according to an example of the present invention.

FIG. 2 is an organization diagram showing an example of a knitting structure of a warp knitted blanket according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Ground structure 2 Front loop pile 3 Back loop pile 4 Chain knitting yarn 5 Insertion yarn 6 Front knitting yarn 6a Knitting part of front knitting yarn knitted to chain knitting yarn 6b Stitch formed by front knitting yarn 7 Back knitting Thread 7a Insertion portion of back knitting yarn inserted into chain knitting yarn 7b Stitch formed by back knitting yarn

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Mikito Fujii 600, Soga-cho, Kashihara-shi, Nara Fujii Stock Company In-house F-term (reference) 4L002 AA03 AA07 AB01 AB02 CA01 CA03 CA04 CB03 DA02 EA01 FA00

Claims (2)

[Claims] 1. A warp knitted fabric comprising a chain knitting yarn and an insertion yarn connecting the chain knitting yarn, a front knitting yarn comprising a wool yarn, and a back knitting yarn comprising a wool yarn. Has a knitting portion knitted on the chain knitting yarn, and a yarn portion connecting the adjacent knitting portions serves as a front loop pile, while the back knitting yarn is inserted into the chain knitting yarn. A warp knitted blanket having excellent heat retention, characterized by having a inserted portion and a thread portion connecting the adjacent inserted portions forming a back loop pile. 2. The warp knitted blanket according to claim 1, wherein [(intrinsic clo value / unit thickness) × (intrinsic clo value / unit weight)] ≧ 8.0 × 10 ⁻⁴ .